One click application asset distribution

ABSTRACT

The technology described in this document can be embodied in a method that includes receiving at a second device a request for data sharing from a first device, and receiving a first file package associated with an application installed on the first device, and the file package includes a first portion of information usable for installation of the application on the second device. The method also includes processing the first file package to obtain the first portion of information usable for installing the application on the second device, providing authentication information for downloading a second file package to a remote computer device different from the first device, and installing the application on the second device using the first portion of information and the second portion of information.

TECHNICAL FIELD

This disclosure generally relates to sharing data such as thatpertaining to installation of applications between multiple mobiledevices.

BACKGROUND

Mobile operating systems such as the iOS® developed by Apple Inc. or theAndroid® operating system developed by Google Inc., allow users todownload and install applications developed by third-party developers.Such mobile applications (referred to as “apps”) are hosted onapplication repositories or databases often referred to as “app stores.”

SUMMARY

In one aspect, this document features a computer-implemented method thatincludes receiving, at a second device, a request for data sharing froma first device via a local communication link between the first deviceand the second device. The method also includes receiving, over thelocal communication link, a first file package associated with anapplication installed on the first device, wherein the file packageincludes a first portion of information usable for installation of theapplication on the second device. The method also includes processing,by one or more processors of the second device, the first file packageto obtain the first portion of information usable for installing theapplication on the second device, and providing, to a remote computerdevice different from the first device, authentication information fordownloading a second file package. The second file package issupplementary to the first package for installing the application on thesecond device. The method also includes receiving from the remotecomputing device, responsive to providing the authenticationinformation, the second file package, wherein a size of the second filepackage is smaller than a file package that is independently usable forinstalling the application on the second device. The method alsoincludes processing, by the one or more processors of the second device,the second file package to obtain a second portion of information usablefor installing the application on the second device, and installing theapplication on the second device using the first portion of informationand the second portion of information.

In another aspect, this document features one or more non-transitory,computer-readable storage devices storing instructions executable by oneor more processing devices to perform various operations. The one ormore processing devices are configured to receive, at a second device, arequest for data sharing from a first device via a local communicationlink between the first device and the second device. The one or moreprocessing devices are also configured to receive, over the localcommunication link, a first file package associated with an applicationinstalled on the first device, wherein the file package includes a firstportion of information usable for installation of the application on thesecond device. The one or more processing devices are also configured toprocess, by one or more processors of the second device, the first filepackage to obtain the first portion of information usable for installingthe application on the second device. The one or more processing devicesare also configured to provide, to a remote computer device differentfrom the first device, authentication information for downloading asecond file package, the second file package being supplementary to thefirst package for installing the application on the second device. Theone or more processing devices are also configured to receive from theremote computing device responsive to providing the authenticationinformation, the second file package, wherein a size of the second filepackage is smaller than a file package that is independently usable forinstalling the application on the second device. The one or moreprocessing devices are also configured to process, by the one or moreprocessors of the second device, the second file package to obtain asecond portion of information usable for installing the application onthe second device, and installing the application on the second deviceusing the first portion of information and the second portion ofinformation.

In another aspect, this document features a mobile device that includesa wireless communication interface, memory, and one or more processingdevices. The wireless communication interface is configured to receive arequest for data sharing from a first device via a local communicationlink between the mobile device and a different, first device. The one ormore processing devices are interoperably connected to the wirelesscommunication interface and the memory, and configured to receive, fromthe first device, a first file package associated with an applicationinstalled on the first device, wherein the file package includes a firstportion of information usable for installation of the application on themobile device. The one or more processing devices are also configured toprocess the first file package to obtain the first portion ofinformation usable for installing the application on the mobile device,and provide, to a remote computer device different from the firstdevice, authentication information for downloading a second filepackage. The second file package is supplementary to the first packagefor installing the application on the mobile device. The one or moreprocessing devices are also configured to receive from the remotecomputing device responsive to providing the authentication information,the second file package, wherein a size of the second file package issmaller than a file package that is independently usable for installingthe application on the mobile device, and process, the second filepackage to obtain a second portion of information usable for installingthe application on the mobile device. The application can be installedon the mobile device using the first portion of information and thesecond portion of information.

Implementations of the above aspects can include one or more of thefollowing features. Each of the first device and the second device isone of: a cellular phone, a wireless personal digital assistant (PDA),or a laptop computer. The local communication link can include apersonal area network (PAN) link, a near-field communication (NFC) link,or a Wi-Fi link. The request for data sharing can include an option fora user of the second device to accept the request. The authenticationinformation can be extracted from the first file package. Processing thefirst file package at the second device can include using adecompression process to obtain assets included in the first filepackage. The first file package can be encrypted, and the second filepackage can include a decryption key usable for decrypting the firstfile package.

Various implementations described herein may provide one or more of thefollowing advantages. By allowing for installation of an application viadownloading only a fraction of the amount of data associated with a fullinstallation package, the technology described herein enables users toexperience benefits of the application while potentially savingsignificant time and data usage associated with downloading theapplication. This in turn can improve the overall usability of theapplication for some users, and potentially promote the popularity of anapplication by reducing the users' burden associated with downloadingand installing the application.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows an example environment in which the technology describedherein can be deployed.

FIG. 2 is a block diagram of an example implementation of acommunication system, in which a mobile device can download applicationsin accordance with technology described herein.

FIG. 3 is a flowchart illustrating a method for installing anapplication on a mobile device based on file packages received fromdifferent sources.

FIG. 4 is a flowchart illustrating a method for downloading anapplication to a mobile device from a remote computing device.

FIG. 5 is a flowchart illustrating a method for authenticating a mobiledevice.

FIG. 6 is a flowchart illustrating another method for authenticating amobile device.

FIG. 7 is a flowchart illustrating a method for generating a first filepackage by a first device and sending the first file package to a seconddevice.

FIG. 8 shows an example of a computing device and a mobile device, whichmay be used for implementing technology described herein.

DETAILED DESCRIPTION

This document describes technology that allows for a mobile device tolocally share at least a portion of assets associated with a mobileapplication (referred to as an “app”) with one or more other mobiledevices, such that the one or more other mobile devices may install theapplication without downloading a full installation package from acorresponding application repository (referred to as an “app store”).Typically, to install a mobile application, a user has to download thefull installation package for the application to the user's mobiledevice. In some places where the telecommunication network is weakand/or the available bandwidth for downloading is low, downloading thefull installation package can be time consuming. In addition, if usershave to pay for data usage based on the size of downloaded files (e.g.,per megabyte of data), users may be less likely or reluctant to installan application, particularly if the size of the correspondinginstallation package is large. In some cases, this can hinder usabilityof some applications, in turn, causing some applications to fail basedat least in part due to users' reluctance to download and install theapplications due to the corresponding sizes of the installationpackages. For example, at least one study found that increasing the sizeof a test application from 3 MB to 99 MB reduced installations by 43%,and an increase to 150 MB reduced installations by 66% percent.¹Application sizes have increased significantly over the last few years,and developers appear to have little room to optimize the size of anapp. For example, in 2012, the average size of a non-gaming iOS app was23 MB, but by 2016, the number became 73 MB.² The size of mobileapplications continue to increase as developers include more and morefunctionalities into the applications.³ ¹ Reinhardt, P. (2016, Oct. 4).We bought a successful app, loaded it with extras and watched it fail.Retrieved May 7, 2018, fromhttps://www.recode.net/2016/10/4/13151432/app-size-calculator-bloat-experiment-developers-segment²Id.³ Id.

The technology described herein allows for the distribution of at leasta portion of assets associated with a mobile application via a simpleuser interface of a mobile device, such that the application may beinstalled on a receiving device without downloading the fullinstallation package. Here, “assets” refer to electronic files andpackages (e.g., encrypted and/or unencrypted files) that may be used toinstall an application. For example, the assets associated with anapplication can include one or more of an executable file, a data file,a software package, usable by a device for installing an application. Insome cases, the technology described herein may significantly decreasethe time and/or cost for downloading an application, thereby improvingthe user experience associated with downloading and installing theapplication. For example, a first user who has an application alreadyinstalled on the mobile device, can share, via a local or personalnetwork, a portion of the assets associated with the application withone or more trusted users (e.g., as included in a user-defined “circleof trust”). Here “circle of trust” can refer to a user's family, friend,or anyone she would trust for sharing digital files. Once a second userin the first user's circle of trust receives the portion of assetsassociated with the application, she can log in with her credentials toauthenticate her profile with a remote repository (e.g., an app storeassociated with the operating system of the mobile device of the seconduser). Once the remote computing device determines that the second useris authenticated to install the application, the remote computing devicecan allow the second user to download a file package configured toinstall the application based, at least in part, on the portion ofassets received from the mobile device of the first user. The size ofthe downloaded file package can be a fraction (e.g., 1/10 to 1/100) ofthe size of the full installation package for the application. Forexample, the second user can use the downloaded file package to unpackthe portion of assets received from the mobile device of the first user,and install the application on her device using the unpacked files.Therefore, by allowing for installation of an application viadownloading only a fraction of the amount of data associated with a fullinstallation package, the technology described herein enables users toexperience benefits of the application while potentially savingsignificant time and data usage associated with downloading theapplication. This in turn can improve the overall usability of theapplication for some users, and potentially promote the popularity of anapplication by reducing the users' burden associated with downloadingand installing the application.

FIG. 1 shows an example environment 100 in which the technologydescribed herein can be deployed. The environment 100 includes at leastone mobile device 104 (also referred to herein as the “first device”)that is configured to share an application installed on the device 104with one or more other mobile devices 102 a, 102 b, etc. (also referredto herein in general as “second devices 102”). In some implementations,the second devices 102 can be included in a set of trusted devicesassociated with the circle of trust of the user of the first device 104.For example, a user of the first device 104 can select (e.g., via auser-interface presented on the first device 104) one or more of theuser's contacts, and the corresponding mobile devices can be included inthe set of trusted devices for the user of the first device 104. In someimplementations, the set of trusted second devices 102 can be defined inaccordance with a user's affiliation with an entity such as acorporation, university, or other organization. For example, employeesof a corporation may be in the circle of trust of one another, allowingsharing of applications between the corresponding mobile devices.

In some implementations, the first device 104 is configured tocommunicate with the second devices 102 over a local communicationnetwork 106. The local communication network 106 can include, forexample, a wireless personal area network (PAN), a near-fieldcommunication (NFC) network, a Bluetooth® connection, a Bluetooth LowEnergy (BLE) connection, an infrared link, a Wi-Fi network, or anothercommunication network that enables transmitting file packages among thefirst and second devices without accessing an external network such asthe Internet.

The environment 100 also includes an external network 112 that allowsone or more of the first device 104 and second devices 102 tocommunicate with one or more remote computing devices 108 a, 108 b, etc.(also referred to herein as 108). In some implementations, the remotecomputing device 108 can be a server associated with an applicationrepository 110 for the first device 104 and/or a second device 102. Forexample, each of the devices 102 and 104 can be configured to access acorresponding remote computing device 108 for the purpose of downloadingand installing applications. In some implementations, the applicationrepository 110 associated with a remote computing device 108 can bespecific to the operating system (iOS®, Android®, etc.) of thecorresponding devices 102, 104. In some implementations, the applicationrepository 110 can be associated with the make of a device. In someimplementations, the application repository 110 can be associated with athird-party provider of mobile applications that may be downloaded andinstalled on the devices 102, 104. The external network 112 can include,for example, a local area network (LAN), a wide area network (WAN)including the Internet, one or more access points (APs), and/or one ormore other devices that allow the devices 102 and/or 104 to communicatewith the remote computing devices 108. In some implementations, thenetwork 112 includes a cellular network. The remote computing device 108is also connected to one or more application repository 110 a, 110 b,110 c, etc. The application repository 110 (e.g., an app store) storesvarious applications. It can be, for example, a Blackberry store, aSamsung store, an LG store. The applications are available fordownloading to the first device 104 and the second device 102 via theremote computing device 108 over one or more networks. In someimplementations, each of application repositories 110 can be specific toan operating system. For example, the application repository 110 a canstore applications that run on Google's Android mobile operating system,while the application repository 110 b can store applications that runone Apple's iOS mobile operating system. In some implementations, theapplication repository 110 can also store cross-platform applicationsthat can run on both Google's Android mobile operating system andApple's iOS mobile operating system (e.g., generic contentapplications). Thereby, the application repository 110 can be common tothe first device 104 and the second device 102. Alternatively, the firstdevice and the second device can connect with different applicationrepositories 110.

Each of the first device 104 and the second device 102 is a wirelessenabled device configured to communicate with other wireless-enableddevices. For example, the first device 104 and/or the second device 102can be a smartphone, a tablet, a laptop, an e-reader, or another deviceconfigured to download, install, and execute mobile applications (apps).In some implementations, the second device 102 can be a legacy mobiledevice (referred to as a candy-bar phone) with limited Internet accesscapability. In some cases, a second device 102 may have Internet accesscapability, but can be in an area where the connectivity to the Internetis weak, making downloading a full installation package for an app timeconsuming. In some cases, a data subscription plan associated with thesecond device 102 can make downloading large installation packagesexpensive, and consequently less feasible for some users.

In some cases, where downloading the full installation package for anapplication on the second device 102 is time consuming or otherwiseproblematic, the first device 104 (which has the application installed)can be configured to send a portion of the assets associated withinstalling the application (referred to herein as “first file package”)to the second device, such that the application can be installed on thesecond device 102 without the second device 102 having to directlydownload the full installation package from a corresponding remotecomputing device 108. For example, the first file package, which is sentfrom the first device 104 to the second device 102 via the localcommunication network 106, can be configured to include a significantportion of the electronic files needed for installing the application onthe second device 102. The second device can then simply authenticateitself with a remote computing device 108, and download a supplementaryfile package (referred to herein as the “second file package) that isused in conjunction with the first file package to install theapplication on the second device 102. The second file package can besignificantly smaller (e.g., in terms of number of bytes) than the firstfile package, thereby significantly reducing the amount of data thesecond device 102 downloads directly over the external network 112 toinstall the application.

The first file package can be generated in various ways. In someimplementations, the first file package is generated at the first device104 from the assets available at the first device. For example, thefirst device 104 can be configured to generate a compressed file packagefrom the full installation package available to the first device 104. Insome implementations, the first file package may be provided to thefirst device 104 when the application is installed on the first device104. For example, the first file package can be provided to the firstdevice 104 as a portion of the full installation package associated withthe application.

Upon receipt of the first file package, the second device 102 caninitiate a process to authenticate itself with a correspondingrepository to receive the second file package. In some implementations,the second device 102 provides authentication information to the remotecomputing device 108 associated with the corresponding applicationrepository, and the remote computing device in turn communicates with anauthentication database (shown in FIG. 1, not shown in FIG. 2) toauthenticate the second device 102. In some implementations, the remotecomputing device 108 can be configured to authenticate the identity of amobile device when the mobile device attempts to download an applicationfrom the application repository 110. In some implementation, theidentity information used to authenticate a mobile device's accesscredential can be stored in an authentication database (not shown inFIG. 1, shown in FIG. 2). The identity information can be stored, forexample, in the form of an access code, a verified user-id/passwordpair, etc. In some implementations, the remote computing device 108 caninclude an authentication engine (not shown in FIG. 1, shown in FIG. 2)that is configured to authenticate attempts from the second device 102to download the application. In some implementations, the authenticationengine can be configured to authenticate such attempts withoutcommunicating with an external device such as a remote authenticationserver.

After the second device 102 downloads the second file package from theremote computing device 108, the first file package received from thefirst device 104 and the downloaded second file package can be used inconjunction to install the application on the second device 102. In someimplementations, the second file package includes assets (e.g., one ormore files) other than those already included in the first file package.In some implementations, the assets of the second file package and thefirst file package can be used to generate an application installationpackage for installing the application on the second device 102.Different methods can be used for generating the applicationinstallation package. For example, the first file package can includecompressed installation configuration files, and the second file packagecan be configured to function as an “unpacker” that unpacks ordecompresses the first file package to generate the applicationinstallation package. In another example, the second file package caninclude one or more additional files (e.g., an executable file) that areconfigured to use files from the first file package to install theapplication on the second device 102.

FIG. 2 is a block diagram of an example implementation of acommunication system 200, in which a mobile device (e.g., a seconddevice 102) can download applications in accordance with technologydescribed herein. The system 200 includes a second device 102, a remotecomputing device 108, an application repository 110, and anauthentication database 210. The remote computing device 108 can alsoinclude an application engine 202.

The application repository 110 can include a database storage deviceaccessible to the remote computing device 108. The applicationrepository 110 can be configured to store downloadable installationpackages corresponding to various applications. In some implementations,the application repository 110 can store two versions of installationpackages for an application 208—a first version 208 a that includes thefull installation package for the application, and a second version 208b (which may be referred to a “skinny” or “lite” version) that includesthe second file package described above. The full installation package208 a can include all the files required for installing the application,and the lite installation package 208 b can include only a portion ofthe files (e.g., the second file package, as described above) requiredfor installing the application. The lite installation package 208 b isonly a fraction (e.g., 1/100 to 1/10) of the size of the fullinstallation package 208 a.

In some implementations, the remote computing device 108 may communicatewith an authentication database 210. The authentication database 210 caninclude a library that stores identification information and/orauthentication information for various mobile devices and/or thecorresponding users. In some implementations, the identificationinformation can include a content-specific identifier (e.g., an accesscode) associated with a first file package that is sent from a firstdevice 104 to the second device 102. In some implementations, theidentification information can include a user/device-specific identifier(e.g., information associated with a specific user or a specificdevice).

In some implementations, the remote computing device 108 can include anapplication engine 202. The application engine 202 can receive, from thesecond device 102, a request for downloading an application 208 storedin the application repository 110. One or more processors on theapplication engine 202 can be configured to process the request anddetermine, for example, which application, or which version of thecorresponding installation package to send to the second device 102. Insome implementation, before sending the installation package to thesecond device 102, the remote computing device 108 communicates with anauthentication database 210 to authenticate the identity of the seconddevice 102. In some implementations, the authentication may also be doneusing an authentication engine (not shown) residing on the remotecomputing device 108. The process of downloading the application fromthe application repository 110 to the second device 102 through theremote computing device 108, including the process of authenticating theidentity of the second device 102 with the authentication database 210,is discussed below with reference to FIG. 1.

FIG. 3 is a flowchart illustrating a process 300 for installing anapplication on a device based on file packages received from differentsources. Specifically, the process 300 illustrates how an application isinstalled on a second device by using a first file package received froma first device, in conjunction with a second file package downloadedfrom a remote computing device. In some implementations, at least aportion of the process 300 can be executed by one or more processingdevices of a mobile device such as a second device 102 described above.

At block 305, a request for data sharing is received from the firstdevice at the second device. In some implementations, the request istransmitted via a wireless personal area network (PAN) link or anear-field communication (NFC) link. In some implementations, therequest for data sharing is received responsive to sending anotherrequest to the first device. In some implementations, the requestreceived from the first device includes an option for the second deviceto accept the request. In some implementations, a response iscommunicated to the first device responsive to receiving a user-input(via a user-interface of the second device) accepting or declining theoption to accept the data sharing request.

At block 310, a first file package associated with an applicationinstalled on the first device is received at the second device from thefirst device. The first file package can be substantially similar to thefirst file package described above with reference to FIG. 1, and caninclude a portion of information usable for installation of theapplication on the second device. The first file package can be receivedfrom the first device over a local communication network such as apersonal area network (PAN) link, a near-field communication (NFC) link,a Wi-Fi link, etc. In some implementations, the first file package canbe in a compressed format.

At block 315, the first file package is processed at the second device,to obtain a first portion of information usable for installing theapplication on the second device. In some implementations, the firstfile package is decoded by using a decompression process to obtain thefiles and/or other assets included in the first file package.

At block 320, authentication information for downloading a second filepackage is provided to a remote computing device and from the seconddevice. In some implementations, the second file package issupplementary to the first package for installing the application on thesecond device. In some implementations, the remote computing device isassociated with an application store or repository hosting installationpackages associated with various applications. For example, the remotecomputing device can be substantially similar to the remote computingdevice 108 described above with reference to FIGS. 1 and 2, and therepository can be substantially similar to the application repository110 described above with reference to FIG. 2.

At block 325, a second file package is received from the remotecomputing device responsive to the authentication information. The sizeof the second file package is smaller than a file package that isindependently usable for installing the application on the seconddevice. For example, the second file package can be substantiallysimilar to the lite installation package 208 b described above withreference to FIG. 2, a size for which is smaller (e.g., in terms ofnumber of bytes) than the full installation package 208 a.

At block 330, the second file package is processed at the second deviceto obtain a second portion of information usable for installing theapplication. At block 335, the application is installed at the seconddevice by using the first portion of information and the second portionof information. In some implementations, for example, the second portionof information can be used as an “unpacker” to unpack the first portionof information to generate all the information needed to install theapplication.

FIG. 4 is a flowchart illustrating an example process 400 fordownloading an application to the second device from a remote computingdevice. At block 405, the application download process is initiated bythe second device. For example, the process 400 can be initiated by thesecond device 102 by connecting to an app store responsive to receivinga first file package from another mobile device such as the first mobiledevice 104 described above.

At 410, a download request is sent from the second device 102 to theremote computing device 108. In some implementations, the request can beinitiated at the second device 102 via a user-selection of a liteinstallation package of an application via a user interface of thecorresponding app store. In some implementations, the download requestmay be automatically initiated upon receipt of a file package fromanother mobile device. In some implementations, the remote computingdevice 108 can be configured to connect to a separate source (such as anapp store or other application repository) to obtain the requestedapplication. The requested application may be provided to the requestingdevice upon receipt of appropriate credentials. The credentials can betied, for example, to the device, or a user of the device. For example,the credentials can include a MAC address of the device, a loginaccount-password pair, an access code, a unique identifier, etc. In someimplementations, the second device 102 may be authenticated by theremote computing device 108 prior to being provided with a file packagefor downloading the application.

At 415, the second device receives information related to beingauthenticated by the remote computing device. In some implementations,this can include receiving request for additional information from theremote computing device 108. In some implementations, this can includereceiving information indicative of whether or not the second device hasbeen authenticated by the remote computing device. For example, thesecond device may receive information indicating that the second devicehas not been authenticated by the remote computing device 108 to receivethe requested application. Examples of authentication processes that maybe used are described in FIGS. 5 and 6. If the second device 102 cannotbe authenticated, the process 400 can be configured to terminate. If onthe other hand, the second device 102 can be authenticated, the seconddevice 102 receives the requested lite installation package from theremote computing device 108 at block 420. Once the second device 102receives the lite installation package from the remote computing device108, the application may be installed on the second device 102 asdescribed above with reference to FIG. 2.

FIG. 5 is a flowchart illustrating an example process 500 forauthenticating the second device. In some implementations, at least aportion of the process 500 is executed by one or more processing devicesof the remote computing device 108. In some implementations, the remotecomputing device 108 can be configured to communicate with the firstdevice 104 in authenticating the second device 102.

At block 505, upon receipt of a download request from the second device102, a verification request is sent from the remote computing device 108to the first device 104. In some implementations, the request receivedat the remote computing device 108 also indicates that the second device102 has received a first file package from the first device 104. In suchcases, the remote computing device 108 can be configured to send, to thefirst device 104, a request for verifying that the first device 104 hasindeed provided the first file package to the second device 102. In someimplementations, the verification request sent from the remote computingdevice 108 can be a text message indicating that a particular device isattempting to download a lite installation package of an applicationinstalled on the first device 104, and requesting confirmation whether auser of the first device 104 has authorized such action.

At block 510, the verification information is received at the remotecomputing device 108 from the first device 104. The verificationinformation can be sent, for example, via a return text message (e.g.,including a “Yes” or “No” string or another code conveyed from the firstdevice 104). In some implementations, the verification information caninclude identification information pertaining to the second device 102,such as, a MAC address of the second device, user information associatedwith the second device 102, etc.

At block 515, the received verification information is evaluated (e.g.,by the authentication engine 204 of the remote computing device 108) todetermine whether the access attempt from the second device 102 islegitimate. For example, if the verification information received fromthe first device 104 confirms that the second device 102 has beenauthorized to request a lite installation package from the remotecomputing device 108, the second device can be authenticated. On theother hand, if the verification information received from the firstdevice 104 indicates that the second device 102 has not been authorizedto request a lite installation package from the remote computing device108 (or if no response is received from the first device 104), thesecond device 102 is not authenticated. In some implementations, theevaluation process also can be performed by the remote computing device108, for example, by accessing the MAC address or user information asreceived from the second device 102, and comparing that information withthe verification information received from the first device 104. In someimplementations, the evaluation result, as determined by theauthentication engine 204, is passed to the application engine 202 ofthe remote computing device 108, for the application engine tosend/block transmission of a file package to the second device 102.

FIG. 6 is a flowchart illustrating an example of another process 600 forauthenticating the second device. In some implementations, at least aportion of the process 600 is executed by one or more processing devicesof the remote computing device 108. At block 605, a verification requestis sent from the remote computing device 108 to the second device 102.For example, if the second device has not previously authenticateditself with the remote computing device 108, the remote computing device108 can be configured to send a verification request directly to thesecond device 102. Such a verification request can be sent responsive toreceipt of the download request from the second device 102.

The second device can be authenticated by the remote computing device108 in various ways. In some implementations, the second device 102 canbe authenticated by a unique identifier that is derived from the firstfile package received at the second device 102. For example, the firstfile package may include a file having an access code, which isrequested by the remote computing device via the verification request.In some implementations, the application vendor may provide a limitednumber of access codes for an application, for example to limit thenumber of times a particular application may be shared with otherdevices.

The verification request can be sent to the second device in variousways. In some implementations, the verification request can be sent inthe form of a text message requesting the second device 102 to respondalso via a text. In some implementations, the verification request canbe presented on a user interface displayed at the second device 102. Forexample, once the remote computing device 108 receives the downloadrequest from the second device 102, the remote computing device 108 canbe configured to request the verification information through a userinterface of the corresponding app store, as displayed on the seconddevice 102.

At 610, the verification information is received at the remote computingdevice 108 from the second device 102. In some implementations, theverification information received from the second device can besubstantially similar to the verification information described abovewith reference to FIG. 5. In some implementations, the verificationinformation can include a username-password pair or other authenticatinginformation to authenticate the second device (or a user or user-accountassociated with the second device) with an app store associated with theremote computing device 108.

At 615, the verification information is evaluated at the authenticationengine 204 of the remote computing device 108. In some implementations,the remote computing device 108 can connect to an authenticationdatabase 210 to verify the information received from the second device.The authentication database 210 can be configured to store variousauthentication information. For example, in the case of verification bya unique identifier, the authentication database 210 can be configuredto store the access codes included in the first file packages. Theremote computing device 108 can evaluate the received verificationinformation by comparing the received verification information with thestored verification information in the authentication database 210. Insome implementations, the evaluation results are provided to theapplication engine 202 of the remote computing device for theapplication engine to allow/block the transmission of a file package tothe second device 102. FIGS. 5 and 6 depict two example authenticationprocesses that may be used in conjunction with the technology describedherein. Other authentication techniques such as block chain, smartencryption lock, etc. may also be used without deviating from the scopeof this disclosure.

FIG. 7 is a flowchart illustrating an example of a process 700 forgenerating and transmitting the first file package by a first device. Atleast a portion of the process 700 is executed by one or more processingdevices of the first device 104. At block 705, the process of sharing anapplication installed on the first device is initiated at the firstdevice. This can be done, for example, by receiving a user-inputindicative of a user's desire to share an application with a device/userwithin the circle of trust of the first device. In some implementations,the process can be initiated by the first device sending, responsive touser-input, a request to the second device, wherein the request includesan option for a user of the second device to accept the sharing requestfrom the first device.

At block 710, a first file package is generated. The first file packageis associated with the application installed on the first device, andcan be generated, for example, by processing one or more files or otherassets associated with the application, as available at the firstdevice. The first file package includes a portion of information usablefor installation of the application on the second device. In someimplementations, the first device can select a set of files and/or otherassets for generating the first file package, such that only a subset offeatures of the application is installed on the second device. In someimplementations, the first file package can be generated by usingcompression tools to encode the selected files and/or other assetsassociated with the application installed on the first device. Forexample, to reduce the application's size, the first device can beconfigured to perform one or more of the following: remove unusedresources (possibly based at least in part on user-inputs), use scalabledrawing objects in place of image files, compress PNG and JPEG files,reduce native and Java code portions, host content in the cloud, etc. Insome implementations, the first file package may be available as aportion of the full installation package downloaded on the first device.In such cases, generating the first file package includes identifyingthe files to be sent as the first file package. In some implementations,generating the first file package can include transmitting a request toa remote computing device (e.g., remote computing device 108 associatedwith an application repository), and receiving the first file packagefrom such a remote computing device.

At block 715, the generated first file package is sent from the firstdevice to the second device via a local communication network. The localcommunication network can be a personal area network (PAN) link, anear-field communication (NFC) link, etc. In some implementations, thefirst file package can be sent responsive to receiving, from the seconddevice, a confirmation that a user of the second device has accepted therequest for sharing the application installed on the first device.

FIG. 8 shows an example of a computing device 800 and a mobile device880, which may be used with the techniques described here. For example,referring to FIGS. 1 and 2, the remote computing device 108,authentication engine 204, application engine 202, or the applicationrepository 110 could be examples of the computing device 800. The firstdevice 104 and the second devices 102 could be examples of the mobiledevice 880. Computing device 800 is intended to represent various formsof digital computers, such as laptops, desktops, workstations, personaldigital assistants, servers, blade servers, mainframes, and otherappropriate computers. Computing device 880 is intended to representvarious forms of mobile devices, such as personal digital assistants,cellular telephones, smartphones, tablet computers, e-readers, and othersimilar portable computing devices. The components shown here, theirconnections and relationships, and their functions, are meant to beexamples only, and are not meant to limit implementations of thetechniques described and/or claimed in this document.

Computing device 800 includes a processor 802, memory 804, a storagedevice 806, a high-speed interface 808, connecting to memory 804 andhigh-speed expansion ports 810, and a low-speed interface 812 connectingto low speed bus 814 and storage device 806. Each of the components 802,804, 806, 808, 810, and 812, are interconnected using various busses,and may be mounted on a common motherboard or in other manners asappropriate. The processor 802 can process instructions for executionwithin the computing device 800, including instructions stored in thememory 804 or on the storage device 806 to display graphical informationfor a GUI on an external input/output device, such as display 816coupled to high-speed interface 808. In other implementations, multipleprocessors and/or multiple buses may be used, as appropriate, along withmultiple memories and types of memory. Also, multiple computing devices800 may be connected, with each device providing portions of thenecessary operations (e.g., as a server bank, a group of blade servers,or a multi-processor system).

The memory 804 stores information within the computing device 800. Inone implementation, the memory 804 is a volatile memory unit or units.In another implementation, the memory 804 is a non-volatile memory unitor units. The memory 804 may also be another form of a computer-readablemedium, such as a magnetic or optical disk.

The storage device 806 is capable of providing mass storage for thecomputing device 800. In one implementation, the storage device 806 maybe or contain a computer-readable medium, such as a floppy disk device,a hard disk device, an optical disk device, or a tape device, a flashmemory or other similar solid-state memory device, or an array ofdevices, including devices in a storage area network or otherconfigurations. A computer program product can be tangibly embodied inan information carrier. The computer program product may also containinstructions that, when executed, perform one or more methods, such asthose described above. The information carrier is a computer- ormachine-readable medium, such as the memory 804, the storage device 806,memory 804 on processor 802, or a propagated signal.

The high-speed interface 808 manages bandwidth-intensive operations forthe computing device 800, while the low-speed interface 812 manageslower bandwidth-intensive operations. Such allocation of functions is anexample only. In one implementation, the high-speed interface 808 iscoupled to memory 804, display 816 (e.g., through a graphics processoror accelerator), and to high-speed expansion ports 810, which may acceptvarious expansion cards (not shown). In the implementation, low-speedinterface 812 is coupled to storage device 806 and low-speed expansionport 814. The low-speed expansion port, which may include variouscommunication ports (e.g., USB, Bluetooth, Ethernet, wireless Ethernet)may be coupled to one or more input/output devices, such as a keyboard,a pointing device, a scanner, or a networking device such as a switch orrouter, e.g., through a network adapter.

The computing device 800 may be implemented in a number of differentforms, as shown in the figure. For example, it may be implemented as astandard server 820, or multiple times in a group of such servers. Itmay also be implemented as part of a rack server system 824. Inaddition, it may be implemented in a personal computer such as a laptopcomputer 822. Alternatively, components from computing device 800 may becombined with other components in a mobile device, such as the device880. Each of such devices may contain one or more of computing device800, 880, and an entire system may be made up of multiple computingdevices 800, 880 communicating with each other.

Computing device 880 includes a processor 882, memory 864, aninput/output device such as a display 884, a communication interface866, and a transceiver 868, among other components. The device 880 mayalso be provided with a storage device, such as a microdrive or otherdevice, to provide additional storage. Each of the components 880, 882,864, 884, 866, and 868, are interconnected using various buses, andseveral of the components may be mounted on a common motherboard or inother manners as appropriate.

The processor 882 can execute instructions within the computing device880, including instructions stored in the memory 864. The processor maybe implemented as a chipset of chips that include separate and multipleanalog and digital processors. The processor may provide, for example,for coordination of the other components of the device 880, such ascontrol of user interfaces, applications run by device 880, and wirelesscommunication by device 880.

Processor 882 may communicate with a user through control interface 888and display interface 886 coupled to a display 884. The display 884 maybe, for example, a TFT LCD (Thin-Film-Transistor Liquid Crystal Display)or an OLED (Organic Light Emitting Diode) display, or other appropriatedisplay technology. The display interface 886 can include appropriatecircuitry for driving the display 884 to present graphical and otherinformation to a user. The control interface 888 may receive commandsfrom a user and convert them for submission to the processor 882. Inaddition, an external interface 862 may be provide in communication withprocessor 882, so as to enable near area communication of device 880with other devices. External interface 862 may provide, for example, forwired communication in some implementations, or for wirelesscommunication in other implementations, and multiple interfaces may alsobe used.

The memory 864 stores information within the computing device 880. Thememory 864 can be implemented as one or more of a computer-readablemedium or media, a volatile memory unit or units, or a non-volatilememory unit or units. Expansion memory 874 may also be provided andconnected to device 880 through expansion interface 872, which mayinclude, for example, a SIMM (Single In-line Memory Module) cardinterface. Such expansion memory 874 may provide extra storage space fordevice 880, or may also store applications or other information fordevice 880. Specifically, expansion memory 874 may include instructionsto carry out or supplement the processes described above, and mayinclude secure information also. Thus, for example, expansion memory 874may be provide as a security module for device 880, and may beprogrammed with instructions that permit secure use of device 880. Inaddition, secure applications may be provided via the SIMM cards, alongwith additional information, such as placing identifying information onthe SIMM card in a non-hackable manner.

The memory may include, for example, flash memory and/or NVRAM memory,as discussed below. In one implementation, a computer program product istangibly embodied in an information carrier. The computer programproduct contains instructions that, when executed, perform one or moremethods, such as those described above. The information carrier is acomputer- or machine-readable medium, such as the memory 864, expansionmemory 874, memory on processor 882, or a propagated signal that may bereceived, for example, over transceiver 868 or external interface 862.

Device 880 may communicate wirelessly through communication interface866, which may include digital signal processing circuitry wherenecessary. Communication interface 866 may provide for communicationsunder various modes or protocols, such as GSM voice calls, SMS, EMS, orMMS messaging, CDMA, TDMA, PDC, WCDMA, CDMA2000, or GPRS, among others.Such communication may occur, for example, through radio-frequencytransceiver 868. In addition, short-range communication may occur, suchas using a Bluetooth, Wi-Fi, or other such transceiver (not shown). Inaddition, GPS (Global Positioning System) receiver module 870 mayprovide additional navigation- and location-related wireless data todevice 880, which may be used as appropriate by applications running ondevice 880.

Device 880 may also communicate audibly using audio codec 860, which mayreceive spoken information from a user and convert it to usable digitalinformation. Audio codec 860 may likewise generate audible sound for auser, such as through an acoustic transducer or speaker, e.g., in ahandset of device 880. Such sound may include sound from voice telephonecalls, recorded sound (e.g., voice messages, music files, and so forth)and may also include sound generated by applications operating on device880.

The computing device 880 may be implemented in a number of differentforms, as shown in the figure. For example, it may be implemented as acellular telephone 880. It may also be implemented as part of asmartphone 882, personal digital assistant, tablet computer, or othersimilar mobile device.

Various implementations of the systems and techniques described here canbe realized in digital electronic circuitry, integrated circuitry,specially designed ASICs (application specific integrated circuits),computer hardware, firmware, software, and/or combinations thereof.These various implementations can include implementations in one or morecomputer programs that are executable and/or interpretable on aprogrammable system including at least one programmable processor, whichmay be special or general purpose, coupled to receive data andinstructions from, and to transmit data and instructions to, a storagesystem, at least one input device, and at least one output device.

These computer programs (also known as programs, software, softwareapplications or code) include machine instructions for a programmableprocessor, and can be implemented in a high-level procedural and/orobject-oriented programming language, and/or in assembly/machinelanguage. As used herein, the terms “machine-readable medium”“computer-readable medium” refer to any computer program product,apparatus and/or device (e.g., magnetic discs, optical disks, memory,Programmable Logic Devices (PLDs)) used to provide machine instructionsand/or data to a programmable processor, including a machine-readablemedium that receives machine instructions.

To provide for interaction with a user, the systems and techniquesdescribed here can be implemented on a computer having a display device(e.g., a CRT (cathode ray tube) or LCD (liquid crystal display) monitorfor displaying information to the user and a keyboard and a pointingdevice (e.g., a mouse or a trackball) by which the user can provideinput to the computer. Other kinds of devices can be used to provide forinteraction with a user as well. For example, feedback provided to theuser can be any form of sensory feedback (e.g., visual feedback,auditory feedback, or tactile feedback). Input from the user can bereceived in any form, including acoustic, speech, or tactile input.

The systems and techniques described here can be implemented in acomputing system that includes a back end component (e.g., as a dataserver), or that includes a middleware component (e.g., an applicationserver), or that includes a front end component (e.g., a client computerhaving a graphical user interface or a Web browser through which a usercan interact with an implementation of the systems and techniquesdescribed here), or any combination of such back end, middleware, orfront end components. The components of the system can be interconnectedby any form or medium of digital data communication (e.g., acommunication network). Examples of communication networks include alocal area network (“LAN”), a wide area network (“WAN”), and theInternet.

The computing system can include clients and servers. A client andserver are generally remote from each other and typically interactthrough a communication network. The relationship of client and serverarises by virtue of computer programs running on the respectivecomputers and having a client-server relationship to each other.

While this specification contains many specific implementation details,these should not be construed as limitations on the scope of anyinventions or of what may be claimed, but rather as descriptions offeatures specific to particular implementations of particularinventions. Certain features that are described in this specification inthe context of separate implementations can be implemented incombination in a single implementation. Conversely, various featuresthat are described in the context of a single implementation can beimplemented in multiple implementations separately or in any suitablesubcombination. Moreover, although features may be described above asacting in certain combinations and even initially claimed as such, oneor more features from a claimed combination can, in some cases, beexcised from the combination, and the claimed combination may bedirected to a subcombination or variation of a subcombination. Incertain circumstances, multitasking and parallel processing may beadvantageous. Moreover, the separation of various system components inthe implementations described above should not be understood asrequiring such separation in all implementations, and it should beunderstood that the described program components and systems cangenerally be integrated together in a single software product orpackaged into multiple software products.

Thus, particular implementations of the subject matter have beendescribed. Other implementations are within the scope of the followingclaims. In some cases, the actions recited in the claims can beperformed in a different order and still achieve desirable results. Inaddition, the processes depicted in the accompanying figures do notnecessarily require the particular order shown, or sequential order, toachieve desirable results. In certain implementations, multitasking andparallel processing may be advantageous.

As such, other implementations are within the scope of the followingclaims.

What is claimed is:
 1. A computer-implemented method comprising:receiving, at a second device, a request for data sharing from a firstdevice via a local communication link between the first device and thesecond device; receiving, over the local communication link, a firstfile package associated with an application installed on the firstdevice, wherein the file package includes a first portion of informationusable for installation of the application on the second device;processing, by one or more processors of the second device, the firstfile package to obtain the first portion of information usable forinstalling the application on the second device; providing, to a remotecomputer device different from the first device, authenticationinformation for downloading a second file package, the second filepackage being supplementary to the first file package for installing theapplication on the second device; receiving from the remote computingdevice responsive to providing the authentication information, thesecond file package, wherein a size of the second file package issmaller than a file package that is independently usable for installingthe application on the second device; processing, by the one or moreprocessors of the second device, the second file package to obtain asecond portion of information usable for installing the application onthe second device; and installing the application on the second deviceusing the first portion of information and the second portion ofinformation.
 2. The method of claim 1, wherein each of the first deviceand the second device is a cellular phone, a wireless personal digitalassistant (PDA), or a laptop computer.
 3. The method of claim 1, whereinthe local communication link comprises a personal area network (PAN)link, a near-field communication (NFC) link, or a Wi-Fi link.
 4. Themethod of claim 1, wherein the request for data sharing comprises anoption for a user of the second device to accept the request.
 5. Themethod of claim 1, further comprising extracting the authenticationinformation from the first file package.
 6. The method of claim 1,wherein processing the first file package at the second device comprisesusing a decompression process to obtain assets included in the firstfile package.
 7. The method of claim 1, wherein the first file packageis encrypted, and the second file package comprises a decryption keyusable for decrypting the first file package.
 8. One or morenon-transitory, computer-readable storage devices storing instructionsexecutable by one or more processing devices to perform operationscomprising: receiving, at a second device, a request for data sharingfrom a first device via a local communication link between the firstdevice and the second device; receiving, from the first device, a firstfile package associated with an application installed on the firstdevice, wherein the file package includes a first portion of informationusable for installation of the application on the second device;processing the first file package to obtain the first portion ofinformation usable for installing the application on the second device;providing, to a remote computer device different from the first device,authentication information for downloading a second file package, thesecond file package being supplementary to the first file package forinstalling the application on the second device; receiving from theremote computing device responsive to providing the authenticationinformation, the second file package, wherein a size of the second filepackage is smaller than a file package that is independently usable forinstalling the application on the second device; processing the secondfile package to obtain a second portion of information usable forinstalling the application on the second device; and installing theapplication on the second device using the first portion of informationand the second portion of information.
 9. The computer-readable storagedevices of claim 8, wherein the local communication link is a personalarea network (PAN) link, a near-field communication (NFC) link, or aWi-Fi link.
 10. The computer-readable storage devices of claim 8,wherein the request comprises an option for accepting the request. 11.The computer-readable storage devices of claim 8, wherein theauthentication information is associated with the received first filepackage.
 12. The computer-readable storage devices of claim 8, whereinprocessing the first file package comprises using a decompressionprocess to obtain assets included in the first file package.
 13. Amobile device comprising: a wireless communication interface configuredto receive a request for data sharing from a first device via a localcommunication link between the mobile device and a different, firstdevice; memory; and one or more processing devices interoperablyconnected to the wireless communication interface and the memory, theone or more processing devices configured to: receive, from the firstdevice, a first file package associated with an application installed onthe first device, wherein the file package includes a first portion ofinformation usable for installation of the application on the mobiledevice; process the first file package to obtain the first portion ofinformation usable for installing the application on the mobile device;provide, to a remote computer device different from the first device,authentication information for downloading a second file package, thesecond file package being supplementary to the first file package forinstalling the application on the mobile device; receive from the remotecomputing device responsive to providing the authentication information,the second file package, wherein a size of the second file package issmaller than a file package that is independently usable for installingthe application on the mobile device; process the second file package toobtain a second portion of information usable for installing theapplication on the mobile device; and install the application on themobile device using the first portion of information and the secondportion of information.
 14. The mobile device of claim 13, wherein thesaid device is a cellular phone, a wireless personal digital assistant(PDA), or a laptop computer.
 15. The mobile device of claim 13, whereinthe local communication link is a personal area network (PAN) link, anear-field communication (NFC) link, or a Wi-Fi link.
 16. The mobiledevice of claim 13, wherein the request for data sharing comprises anoption for a user of the mobile device to accept the request.
 17. Themobile device of claim 13, wherein the authentication information isassociated with the received first file package.
 18. The mobile deviceof claim 13, wherein processing the first file package comprises using adecompression process to obtain assets included in the first filepackage.